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CARQUIN, EDSON
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Nombre
CARQUIN, EDSON
Campus / Sede
Campus Casa Central Valparaíso
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ORCID
Scopus Author ID
17342058700
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- PublicationMeasurement of the Centrality Dependence of the Dijet Yield in Formula Presented Collisions at Formula Presented with the ATLAS Detector(2024-03-08)
;Filmer, E. K. ;Grant, C. M. ;Jackson, P. ;Kong, A. X.Y. ;Pandya, H. D. ;Potti, H. ;Ruggeri, T. A. ;Ting, E. X.L. ;White, M. J. ;Gingrich, D. M. ;Lindon, J. H. ;Nishu, N. ;Pinfold, J. L. ;Cakir, O. ;Yildiz, H. Duran ;Kuday, S. ;Turk Cakir, I. ;Sultansoy, S. ;Adam Bourdarios, C. ;Arnaez, O. ;Berger, N. ;Castillo, F. L. ;Costanza, F. ;Delmastro, M. ;Di Ciaccio, L. ;Hryn’ova, T. ;Jézéquel, S. ;Koletsou, I. ;Levêque, J. ;Lewis, D. J. ;Little, J. D. ;Lorenzo Martinez, N. ;Poddar, G. ;Sanchez Pineda, A. ;Sauvan, E. ;Bernardi, G. ;Bomben, M. ;Li, A. ;Li, T. ;Marchiori, G. ;Nakkalil, K. ;Shen, Q. ;Zhang, Y. ;Chekanov, S. ;Darmora, S. ;Hopkins, W. H. ;Hoya, J. ;Love, J. ;Luongo, N. A. ;Metcalfe, J. ;Mete, A. S. ;Paramonov, A. ;Proudfoot, J. ;Van Gemmeren, P. ;Wamorkar, T. ;Wang, R. ;Zhang, J. ;Cheu, E. ;Cui, Z. ;Ghosh, A. ;Johns, K. A. ;Lampl, W. ;Lindley, R. E. ;Loch, P. ;Rutherfoord, J. P. ;Sardain, J. ;Varnes, E. W. ;Zhou, H. ;Zhou, Y. ;Bakshi Gupta, D. ;Burghgrave, B. ;Cardenas, J. C.J. ;De, K. ;Farbin, A. ;Hadavand, H. K. ;Myers, A. J. ;Ozturk, N. ;Usai, G. ;White, A. ;Angelidakis, S. ;Fassouliotis, D. ;Fountas, L. ;Gkialas, I. ;Kourkoumelis, C. ;Alexopoulos, T. ;Drivas-Koulouris, I. ;Gazis, E. N. ;Kitsaki, C. ;Maltezos, S. ;Paraskevopoulos, C. ;Perganti, M.; ; ; ;Fernandez Luengo, S.I. ;Fuenzalida Garrido, S.; ;Robles Gajardo, C.M.; Viaux Maira, N.ATLAS measured the centrality dependence of the dijet yield using 165 nb−1 of 𝑝+Pb data collected at √𝑠NN=8.16 TeV in 2016. The event centrality, which reflects the 𝑝+Pb impact parameter, is characterized by the total transverse energy registered in the Pb-going side of the forward calorimeter. The central-to-peripheral ratio of the scaled dijet yields, 𝑅CP, is evaluated, and the results are presented as a function of variables that reflect the kinematics of the initial hard parton scattering process. The 𝑅CP shows a scaling with the Bjorken 𝑥 of the parton originating from the proton, 𝑥𝑝, while no such trend is observed as a function of 𝑥Pb. This analysis provides unique input to understanding the role of small proton spatial configurations in 𝑝+Pb collisions by covering parton momentum fractions from the valence region down to 𝑥𝑝∼10−3 and 𝑥Pb∼4×10−4.Scopus© Citations 1